![]() 56 2.7.1 Poynting theorem and definition of power and energy in the time domain. ![]() 54 2.7 Power and energy in the time and frequency domains, Poynting theorem. 52 2.6.4 Boundary conditions adjacent to perfect conductors. 50 2.6.3 Boundary conditions for parallel field components. 50 2.6.2 Boundary conditions for perpendicular field components. 47 2.6 Boundary conditions for electromagnetic fields. 39 2.5 Electric and magnetic fields in media. 38 2.4.3 Maxwell’s equations in integral form. 35 2.4 Relation between integral and differential forms of Maxwell’s equations. 30 2.3.2 Maxwell’s equations in the complex-frequency domain. 26 2.3 Maxwell’s equations, waves, and polarization in the frequency domain. 23 2.2 Electromagnetic waves in the time domain. 21 Chapter 2: Introduction to Electrodynamics ……………………………………………………23 2.1 Maxwell’s differential equations in the time domain. 17 1.4 Ampere’s Law and magnetostatic fields. 15 1.3 Gauss’s Law and electrostatic fields and potentials. 12 1.2 Forces and the measurement and nature of electromagnetic fields. 11 1.1.2 Review of basic physical concepts and definitions. ![]() Staelin Department of Electrical Engineering and Computer Science Massachusetts Institute of Technology Cambridge, MA Copyright © 2011 Table of Contents Preface ……………………………………………………………………………………ix Chapter 1: Introduction to Electromagnetics and Electromagnetic Fields………………. Electromagnetics and Applications David H.
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